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Nuclear envelope rupture and NET formation is driven by PKC?-mediated lamin B disassembly


ABSTRACT: The nuclear lamina is essential for the structural integration of the nuclear envelope. Nuclear envelope rupture and chromatin externalization is a hallmark of the formation of neutrophil extracellular traps (NETs). NET release was described as a cellular lysis process, however this notion has been questioned recently. Here, we report that during NET formation nuclear lamin B is not fragmented by destructive proteolysis, but rather disassembled into intact full-length molecules. Furthermore, we demonstrate that nuclear translocation of PKC?, which serves as the kinase to induce lamin B phosphorylation and disassembly, results in nuclear envelope rupture. Decreasing lamin B phosphorylation by PKC? inhibition, genetic deletion, or by mutating the PKC? consensus sites on lamin B, attenuates extracellular trap formation. In addition, strengthening the nuclear envelope by lamin B overexpression attenuates NET release in vivo and reduces levels of NET-associated inflammatory cytokines in UVB-irradiated skin of lamin B transgenic mice. Our findings advance the mechanistic understanding of NET formation by showing that PKC?-mediated lamin B phosphorylation drives nuclear envelope rupture for chromatin release in neutrophils.

SUBMITTER: Yubin Li 

PROVIDER: S-SCDT-EMBOR-2019-48779-T | biostudies-other |

REPOSITORIES: biostudies-other

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